Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.5.1.2 (DNA ligase)
 2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA ligation entails AMP transfer from ATP to the 5' end of DNA to form a DNA-adenylate structure, A(5')pp(5')N. A similar reaction involving GMP transfer occurs during 5' capping of eukaryotic mRNA. In both cases, nucleotidyl transfer occurs through a covalent lysyl-NMP intermediate. There is local sequence conservation among ligases and capping enzymes in the vicinity of the active site lysine (KxDG) and at three other collinear motifs. The role of these motifs in DNA ligation was tested by mutating individual conserved residues in the vaccinia virus DNA ligase. Wild-type and mutated versions of vaccinia ligase were expressed in bacteria as His-tagged fusion proteins and purified by Ni-affinity and phosphocellulose chromatography steps. We found that Ala substitution for Lys-231 (the presumptive active site) abrogated enzyme-adenylate formation and DNA ligation activities. Ala mutations at conserved residues Glu-283, Glu-377, and Lys-397 also resulted in loss of ligation activity, which correlated with a defect in ligase-AMP formation. These results are concordant with mutational studies of yeast RNA capping enzyme and suggest a common structural basis for covalent nucleotidyl transfer.
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PMID:Mutational analysis of vaccinia DNA ligase defines residues essential for covalent catalysis. 764 38

Bacteriophage T4 RNA ligase 2 (Rnl2) exemplifies a polynucleotide ligase family that includes the trypanosome RNA-editing ligases and putative RNA ligases encoded by eukaryotic viruses and archaea. Here we analyzed 12 individual amino acids of Rnl2 that were identified by alanine scanning as essential for strand joining. We determined structure-activity relationships via conservative substitutions and examined mutational effects on the isolated steps of ligase adenylylation and phosphodiester bond formation. The essential residues of Rnl2 are located within conserved motifs that define a superfamily of nucleotidyl transferases that act via enzyme-(lysyl-N)-NMP intermediates. Our mutagenesis results underscore a shared active site architecture in Rnl2-like ligases, DNA ligases, and mRNA capping enzymes. They also highlight two essential signature residues, Glu(34) and Asn(40), that flank the active site lysine nucleophile (Lys(35)) and are unique to the Rnl2-like ligase family.
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PMID:Structure-function analysis of T4 RNA ligase 2. 1261 99